US 20070239209 A1
A device to seal an incision in a blood vessel includes an inner member and an outer member. A suture connects the inner member and the outer member. A first portion of the suture is embedded within a second portion of the suture such that as tension in the suture increases the first and second portions are held together. According to certain embodiments, the second portion is not part of a first suture portion, and both the first and second portions are used to retain the outer member in place. A method of making such a device is also described.
1. A device to close an incision, comprising:
an inner member;
an outer member; and
a first suture connected to the inner member and the outer member;
at least one suture portion, which is embedded in a portion of the first suture, to retain the outer member in place when the outer member is slid over said at least one suture portion and said portion of the first suture, wherein said at least one suture portion is not part of the first suture.
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10. A method of making a device to close an incision, comprising:
providing an inner member;
threading a first suture through the inner member;
providing a second suture which is not part of the first suture;
embedding at least one suture portion of the second suture in a portion of the first suture, to enlarge an outer dimension of the first suture to a configuration such that an outer member is retained in place when the outer member is slid over said at least one suture portion and said portion of the first suture; and
cutting the second suture to shorten the second suture.
11. A method as set forth in
12. A method as set forth in
This application is a continuation-in-part of U.S. application Ser. No. 10/805,486, filed Mar. 22, 2004, which in turn claims the benefit of U.S. Provisional Application No. 60/530,618, filed Dec. 19, 2003. The entire contents of both of these applications are incorporated herein by reference.
There are several medical procedures which require access to a patient's vascular system. Access to a patient's vascular system can be provided by making an incision (sometimes called a puncture, wound, or hole) in an artery (or other blood vessel) below the skin surface. At the conclusion of the medical procedure, the incision in the artery must be sealed.
One technique for sealing such an incision is to place an inner seal within the artery and an outer locking element outside the artery in such a fashion as to seal the incision. The seal is made of bioabsorbable materials which are absorbed within the body over time. The inner seal, the outer locking element, and the suture are usually components of an introducer and sealing assembly. A suture loop is needed to guide and hold the seal, the locking element, and the suture during the sealing procedure. The suture (for example, a thread or a multifilament fiber) holds the inner seal in place and guides the locking element to a position outside of the artery opposite the inner seal. Typically, in such a suture loop, the ends (or other portions) of the suture are glued or tied together to complete the loop.
Similar suture loops can also be used when a closure comprises an inner anchor member and an outer seal, e.g., in the form of a collagen plug, which are held together by a suture loop, or when an outer member and an inner member are clamped together to thereby seal a puncture in an intermediate blood vessel wall.
Additional background on the techniques described above is set forth in U.S. Pat. Nos. 6,508,828 and 6,425,911, and U.S. patent applications Ser. Nos. 10/280,086, 10/341,599, and 10/341,598, whose entire contents are incorporated herein by reference.
It has been discovered that the use of glue or knot(s) to form the loop has disadvantages. For example, the use of glue in the manufacturing process complicates manufacturing because the glue has to be applied properly, has to be immobilized while drying, etc. Knot(s) reduce the strength of a suture, and make the overall design more complicated because care must be taken to make sure that the knot(s) pass through various components (e.g., components of an introducer device used to guide and push the sealing and/or locking members in place during a sealing procedure).
The present invention provides a technique to connect the ends (or other portions) of a suture used in sealing an incision in a blood vessel. In the present invention, portions of the suture are joined together (for example, to form a loop) by embedding one portion of the suture within another portion of the suture, such that as tension in the suture increases, the different portions of the suture are held together. This joining may be accomplished using a needle, by sticking a suture into itself, by a splice, by weaving, by embedding, or by any other technique wherein tension in the suture maintains or increases the holding power.
The tension in the suture contracts (i.e., reduces the cross-sectional area of) the suture such that the friction force between the walls of the suture portions (i.e., between a first portion and a second portion, which is enclosed by the first portion) increases and becomes larger than the force (tension) that tries to separate the portions (i.e., larger than the force pulling the two portions apart).
According to certain embodiments of the invention, the invention is applied to a device used to close an incision having an inner member, an outer member, and a first suture connected to the inner member and the outer member. At least one other suture portion, which is not part of the first suture, is embedded in a portion of the first suture to retain the outer member in place when the outer member is slid over the at least one other suture portion and the portion of the first suture.
A method of making such a device includes threading a first suture through the inner member and providing a second suture which is not part of the first suture. At least one suture portion of the second suture is embedded in a portion of the first suture, to enlarge an outer dimension of the first suture to a configuration such that an outer member is retained in place when the outer member is slid over the at least one suture portion of the second suture and the portion of the first suture. The second suture is cut to shorten the second suture.
Preferred embodiments of the invention are shown in the drawings wherein:
FIGS. 7(a) to 14 illustrate sixth to twelfth embodiments of the invention.
A common feature of the previously described embodiments is that the suture embedding technique is utilized as a way of joining two suture portions, typically of one and the same suture. This is in particular true also for the embodiments shown in
The inventor has discovered that creating a friction lock by a suture embedding technique—instead of using a separate core—provides certain advantages. From a manufacture point of view it is easier to thread a first suture into a second suture (which can be done using a needle) than to insert a separate core into a suture. When in place, the embedded suture creates a smooth and compliant transition from a thin suture portion to thick suture portion for an outer member, which is pushed up and over the enlarged diameter portion, whereas a separate core is more unresilient and “unforgiving”. Care has also to be taken to ensure that the core does not creep out of the suture after it has been implanted. It may further be noted that in the U.S. Pat. No. 6,508,828 arrangement two different materials are suggested for the core and the suture, namely glycolide/lactide polymer and caprolactone/trimethylene carbonate/glycolide polymer, respectively, implying that the two members will exhibit different properties regarding, for example, resorption time. To have the same resorption time for different components is usually advantageous for a resorbable medical device.
However, when a suture embedding technique is utilized for creating a multi-functional joint, which besides serving as a joint of two suture portions also constitutes a friction lock for an outer member of a closure device, the resulting joined portion must possess a certain length, i.e. the length of the first suture portion which is embedded in the second suture portion cannot be too short. When the joining portion also is used as a friction lock, this requirement must be compatible with other requirements originating from the design of an insertion tool, by which the closure device is to be deployed at a vessel wall. A multi-functional suture joint may therefore have some disadvantages from a manufacturing point of view.
In the foregoing description, it should be understood that the term “suture” is meant to encompass all types of threads and filaments, including multi-filaments, which, within the medical field, are used to connect inner and outer members of a sealing or closure device.
The foregoing description of preferred embodiments of the invention has been presented for purposes of illustration. It is not intended to be exhaustive or to limit the invention to the precise form disclosed, and modifications and variations are possible in light of the above teachings. It is intended that the scope of the invention be defined with reference to the claims appended hereto, and their equivalents.